CN215505995U - Dust remover for potassium sulfate processing and dust removal mechanism and cleaning mechanism thereof - Google Patents

Abstract

The utility model discloses a dust remover for potassium sulfate processing, a dust removing mechanism and a cleaning mechanism of the dust remover, and relates to the technical field of potassium sulfate production. This dust remover is used in potassium sulphate processing, dust removal mechanism includes the first bracing piece that the internal surface set up, first bracing piece runs through has first backup pad, the first supporting block of first backup pad top fixedly connected with, the internal surface fixedly connected with second bracing piece of first supporting block, the gas that has the dust granule passes through first filter screen, first filter screen filters the air of process, make the air that has the dust granule before pulse sack cleaner filter bag removes dust, one step earlier handles the air that has the dust granule, the improvement washes sack cleaner dust removal efficiency.

Description

Dust remover for potassium sulfate processing and dust removal mechanism and cleaning mechanism thereof

Technical Field

The utility model discloses a dust remover for potassium sulfate processing, a dust removing mechanism and a cleaning mechanism thereof, and relates to the technical field of potassium sulfate production.

Background

In the production process of potassium sulfate by the Mannheim method, the product potassium sulfate is powdery, dust can be generated in the processes of crushing, transferring and the like of the product, the dust needs to be collected in a closed manner in order to reduce and avoid the influence of the dust on the operating environment, and a pulse bag dust collector is mostly adopted in the production process of the potassium sulfate by the Mannheim method to recover dust materials.

When the pulse bag-type dust collector works, dust-containing gas enters the dust hopper from the air inlet duct, coarse dust particles directly fall into the bottom of the dust hopper, fine dust particles turn upwards along with air flow and enter the middle and lower box bodies, dust is accumulated on the outer surface of the filter bag, and the filtered gas enters the exhaust duct and is exhausted to the atmosphere through the exhaust fan.

However, when the existing pulse bag dust collector is used, because the outer surface of the filter bag is not attached with particles, the dust collection effect of the pulse bag dust collector is the lowest, and when the pulse bag dust collector is used for cleaning dust on the outer surface of the filter bag, the dust collection effect of the pulse bag dust collector can be reduced.

Therefore, there is a need for a dust collector for potassium sulfate processing, a dust collecting mechanism and a cleaning mechanism thereof, which solve the problem of the reduced dust collecting effect when particles attached to the outer surface of the filter bag of the pulse bag dust collector.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a dust remover for potassium sulfate processing, a dust removing mechanism and a cleaning mechanism thereof, which have the advantages of improving the dust removing effect of a bag-type dust remover and the like, and solve the problem that the dust removing effect is weakened when particles on the outer surface of a filter bag of a pulse bag-type dust remover are attached.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a dust remover is used in potassium sulphate processing, includes the protective housing, protective housing one side fixedly connected with intake pipe, the protective housing one side fixedly connected with outlet duct relative with the intake pipe, the protective housing internal surface is provided with dust removal mechanism, the protective housing bottom is provided with clean mechanism.

The protective shell mainly protects the internal structure, the air inlet pipe mainly allows air flow with dust to enter, the air outlet pipe mainly allows clean air to flow out, the dust removing mechanism mainly filters the air with dust to improve the dust removing performance of the dust remover, the cleaning mechanism mainly prevents dust from flying when workers transport the dust, the first supporting rod mainly supports the first supporting plate to prevent the first supporting plate from moving, the first supporting block supports the first supporting block at the top, the top of the first supporting block is provided with a groove for fixing the second supporting rod and simultaneously can not block the rotation of the connecting rod, the first filter screen is fixed on the second supporting plate, when the gas with dust particles is impacted on the first filter screen, the gas with dust particles passes through the first filter screen, the first filter screen filters the passing air, and the first filter screen is fixed through four groups of springs, make the second backup pad can rock, the second backup pad can shake the dust that depends on the first filter screen when rocking and fall.

The dust removal mechanism includes: the support device comprises a first support rod, a first support plate, a first support block, a second support rod, a connecting rod, a second support plate, a first filter screen and a spring, wherein the first support rod penetrates through the first support plate, the top of the first support plate is fixedly connected with the first support block, the inner surface of the first support block is fixedly connected with the second support rod, the outer surface of the second support rod is movably connected with the connecting rod, one end of the connecting rod is fixedly connected with the second support plate, the inner surface of the second support plate is fixedly connected with the first filter screen, and the spring is welded on the outer surface of the first filter screen;

the cleaning mechanism includes: motor, first dwang, first rotation bucket, fixed disk, belt, second dwang, second rotation bucket, fixed pipe and second filter screen, the first dwang of motor one side fixedly connected with, the first rotation bucket of first dwang one end fixedly connected with, first rotation bucket surface overlap joint has the fixed disk, fixed disk one side is connected with the internal surface fixed connection of clean mechanism, first dwang transmission is connected with the belt, belt transmission is connected with the second dwang, second dwang one end fixedly connected with second rotates the bucket, the second rotates the fixed pipe of bucket top fixedly connected with, fixed pipe surface and clean mechanism inner wall fixed connection, fixed intraductal fixed surface is connected with the second filter screen.

Preferably, the first supporting rods are provided with a plurality of groups, and the plurality of groups of the first supporting rods are positioned on the inner surface of the dust removing mechanism.

The first supporting rods are provided with a plurality of groups and are of rod-shaped structures, and the first supporting rods are mainly used for reducing the receiving of dust when the dust above the dust removing mechanism falls, and increasing the downward falling quantity of the dust.

Preferably, a groove is formed in the first supporting block, and the length of the second supporting block is the same as that of the groove formed in the first supporting block.

Preferably, the first filter screen is a fiber filter material screen, and the size of the first filter screen is matched with the size of the opening of the second support plate.

Preferably, four groups of springs are arranged, and the four groups of springs are positioned on the outer surface of the second supporting plate and distributed in a rectangular shape.

Preferably, the first rotating barrel is cylindrical, a small hole is formed in the outer surface of the first rotating barrel, and the second rotating barrel is identical to the first rotating barrel in structure.

First rotation bucket is mainly through the aperture of seting up, make the dust in the passageway between first rotation bucket and the second rotation bucket accumulate, the fixed disk opening is vertical, the dust gets into the passageway between first rotation bucket and the second rotation bucket, the dust is accumulated in the passageway between first rotation bucket and the second rotation bucket, first rotation bucket opening is towards the inner wall of clean mechanism, the opening of second rotation bucket is on vertical direction, make the first opening that rotates the bucket and pass through the second rotation bucket in the passageway between the second rotation bucket, the fixed disk seals the top, make the air current can not get into the passageway between first rotation bucket and the second rotation bucket, the dust drops downwards, it collects the dust to have the staff of being convenient for of air current.

Preferably, the fixed disk is circular, and the size of the circular hole of the fixed disk is the same as the diameter of the first rotating barrel.

The utility model provides a dust removal mechanism of dust remover for potassium sulphate processing, includes: first bracing piece, first backup pad, first supporting block, second bracing piece, connecting rod, second backup pad, first filter screen and spring, first bracing piece runs through there is first backup pad, the first supporting block of first backup pad top fixedly connected with, first bracing piece internal surface fixedly connected with second bracing piece, second bracing piece surface swing joint has the connecting rod, connecting rod one end fixedly connected with second backup pad, the first filter screen of second backup pad internal surface fixedly connected with, first filter screen skin weld has the spring.

A cleaning mechanism of a dust remover for potassium sulfate processing comprises: motor, first dwang, first rotation bucket, fixed disk, belt, second dwang, second rotation bucket, fixed pipe and second filter screen, the first dwang of motor one side fixedly connected with, the first rotation bucket of first dwang one end fixedly connected with, first rotation bucket surface overlap joint has the fixed disk, fixed disk one side is connected with the internal surface fixed connection of clean mechanism, first dwang transmission is connected with the belt, belt transmission is connected with the second dwang, second dwang one end fixedly connected with second rotates the bucket, the second rotates the fixed pipe of bucket top fixedly connected with, fixed pipe surface and clean mechanism inner wall fixed connection, fixed intraductal fixed surface is connected with the second filter screen.

Compared with the prior art, the utility model provides a dust remover for potassium sulfate processing, a dust removing mechanism and a cleaning mechanism thereof, which have the following beneficial effects:

first, this dust remover is used in potassium sulphate processing, through dust removal mechanism, it is specific that after the workman starts the pulse bag dust remover, the air that has the dust granule enters into inside the protective housing through the intake pipe, the second backup pad passes through the connecting rod and four group's spring are fixed, first filter screen is fixed in the second backup pad, when the gas that has the dust granule beats on first filter screen, the gas that has the dust granule passes through first filter screen, first filter screen filters the air that passes through, make the air that has the dust granule before pulse bag dust remover filter bag removes dust, one step earlier handle the air that has the dust granule, improve and dash the bag dust remover dust collection efficiency.

Secondly, the dust remover for processing potassium sulfate is characterized in that after dust is fully squeezed in a channel between a first rotating barrel and a second rotating barrel through a cleaning mechanism, a worker can start a motor, the motor drives a first rotating rod to rotate, the first rotating rod is connected with a second rotating rod through a belt, so that the rotating speeds of the first rotating rod and the second rotating rod are the same, the first rotating barrel and the second rotating barrel are of the same structure, when the opening of the first rotating barrel is upward, the dust enters the channel between the first rotating barrel and the second rotating barrel through the opening of the first rotating barrel, when a certain amount of dust is fully accumulated in the channel between the first rotating barrel and the second rotating barrel, the motor rotates, so that the opening of the first rotating barrel faces the inner wall of the cleaning mechanism, the dust cannot enter the channel between the first rotating barrel and the second rotating barrel, and when the opening of the first rotating barrel faces the inner wall of the cleaning mechanism, the second rotates the opening of bucket in vertical direction for first rotation bucket and second rotate the opening that the bucket was rotated to the second in the passageway between the bucket, drop downwards, and the staff of being convenient for collects the dust, has prevented that the staff from being blown to fly by the inside air current of clean mechanism to the in-process dust that the dust was collected, has solved the problem that the staff flies upward to the dust when collecting.

Drawings

FIG. 1 is a schematic view of the overall structure of a dust collector of the present invention;

FIG. 2 is a schematic front view of the dust removing mechanism of the present invention;

FIG. 3 is a schematic view of the overall structure of the dust removing mechanism of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3;

fig. 5 is a front view of the cleaning mechanism of the present invention.

Wherein: 1. a protective shell; 2. an air inlet pipe; 3. an air outlet pipe; 4. a dust removal mechanism; 401. a first support bar; 402. a first support plate; 403. a first support block; 404. a second support bar; 405. a connecting rod; 406. a second support plate; 407. a first filter screen; 408. a spring; 5. a cleaning mechanism; 501. a motor; 502. a first rotating lever; 503. a first rotating tub; 504. fixing the disc; 505. a belt; 506. a second rotating lever; 507. a second rotating tub; 508. a fixed tube; 509. a second filter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Detailed description of the utility model

The following is a specific embodiment of a dust remover for potassium sulfate processing.

Referring to fig. 1-5, a dust remover for potassium sulfate processing comprises a protective shell 1, an air inlet pipe 2 is fixedly connected to one side of the protective shell 1, an air outlet pipe 3 is fixedly connected to one side of the protective shell 1 opposite to the air inlet pipe 2, a dust removing mechanism 4 is arranged on the inner surface of the protective shell 1, and a cleaning mechanism 5 is arranged at the bottom of the protective shell 1.

Through above-mentioned technical scheme, protective housing 1 mainly is the inside structure of protection, and intake pipe 2 mainly lets the air current that has the dust get into, and outlet duct 3 mainly lets clear air flow, and dust removal mechanism 4 mainly is the filtration with the air that has the dust to improve the dust removal performance of dust remover, clean mechanism 5 mainly prevents that the workman dust from flying upward when the transportation dust.

Specifically, the dust removing mechanism 4 includes: first bracing piece 401, first backup pad 402, first supporting block 403, second bracing piece 404, connecting rod 405, second backup pad 406, first filter screen 407 and spring 408, first backup pad 401 has run through first backup pad 402, first backup pad 402 top fixedly connected with first supporting block 403, first backup pad 403 internal surface fixedly connected with second bracing piece 404, second bracing piece 404 surface swing joint has connecting rod 405, connecting rod 405 one end fixedly connected with second backup pad 406, second backup pad 406 internal surface fixedly connected with first filter screen 407, first filter screen 407 skin weld has spring 408.

Through the technical scheme, the first supporting rod 401 mainly supports the first supporting plate 402, the first supporting plate 402 is prevented from moving, the first supporting block 403 at the top of the first supporting plate 402 is supported, a groove is formed in the top of the first supporting block 403, and is used for fixing the second supporting rod 404, meanwhile, the rotation of the connecting rod 405 cannot be obstructed, the first supporting plate 407 is fixed on the second supporting plate 406, when gas with dust particles hits the first supporting plate 407, the gas with the dust particles passes through the first supporting plate 407, the first supporting plate 407 filters passing air, the first supporting plate 407 is fixed through four groups of springs 408, so that the second supporting plate 406 can shake, and the second supporting plate 406 can shake dust attached to the first supporting plate 407 when shaking.

Specifically, the cleaning mechanism 5 includes: motor 501, first pivot pole 502, first rotation bucket 503, fixed disk 504, belt 505, second pivot pole 506, second rotation bucket 507, fixed pipe 508 and second filter screen 509, motor 501 one side fixedly connected with first pivot pole 502, first pivot pole 502 one end fixedly connected with first rotation bucket 503, first rotation bucket 503 surface overlap joint has fixed disk 504, fixed disk 504 one side is connected with the internal surface fixed connection of cleaning mechanism 5, first pivot pole 502 transmission is connected with belt 505, belt 505 transmission is connected with second pivot pole 506, second pivot pole 506 one end fixedly connected with second rotation bucket 507, second rotation bucket 507 top fixedly connected with fixed pipe 508, the outer surface of fixed pipe 508 and the inner wall fixed connection of cleaning mechanism 5, the internal surface fixed connection of fixed pipe 508 has second filter screen 509.

Through the above technical solution, the motor 501 drives the first rotating rod 502 to rotate, the first rotating rod 502 is connected with the second rotating rod 506 through the belt 505, so that the rotating speeds of the first rotating rod 502 and the second rotating rod 506 are the same, the first rotating barrel 503 and the second rotating barrel 507 are the same structure, when the opening of the first rotating barrel 503 is upward, dust enters the channel between the first rotating barrel 503 and the second rotating barrel 507 through the opening of the first rotating barrel 503, after a certain amount of dust is accumulated in the channel between the first rotating barrel 503 and the second rotating barrel 507, the motor 501 rotates, so that the opening of the first rotating barrel 503 faces the inner wall of the cleaning mechanism 5, so that dust cannot enter the channel between the first rotating barrel 503 and the second rotating barrel 507, when the opening of the first rotating barrel 503 faces the inner wall of the cleaning mechanism 5, the opening of the second rotating barrel 507 faces in the vertical direction, make first rotation bucket 503 and second rotate the opening that the bucket 507 was rotated to the second to the dust in the passageway between the bucket 507, drop downwards, the staff of being convenient for collects the dust, the in-process dust that has prevented the staff to collect the dust is blown by the inside air current of clean mechanism 5 and flies, fixed pipe 508 is mainly fixed pipe 508, fixed pipe 508 mainly is when first rotation bucket 503 seals the top air current, let gas pass through, prevent the sudden disorder of the inside air current of protective housing 1.

Specifically, the first support rods 401 are provided with a plurality of groups, and the plurality of groups of the first support rods 401 are located on the inner surface of the dust removing mechanism 4.

Through the technical scheme, the first supporting rods 401 are provided with multiple groups and are of rod-shaped structures, so that the dust is mainly received by the first supporting rods 401 when the dust above the dust removing mechanism 4 falls, and the downward falling quantity of the dust is increased.

Specifically, a groove is formed in the first support block 403, and the length of the second support rod 404 is the same as the length of the groove formed in the first support block 403.

Through the above technical solution, the groove formed at the top of the first support block 403 is used for fixing the second support rod 404, and meanwhile, the left and right shaking of the connecting rod 405 is not hindered.

Specifically, the first filter screen 407 is a fiber filter screen, and the size of the first filter screen 407 is matched with the size of the opening of the second support plate 406.

Through the technical scheme, the first filter screen 407 is composed of the fiber filter material, and can resist certain high temperature, so that the first filter screen 407 is prevented from being damaged when high-temperature gas generated during production of potassium sulfate enters the protective shell 1.

Specifically, four sets of springs 408 are provided, and the four sets of springs 408 are disposed on the outer surface of the second support plate 406 and distributed in a rectangular shape.

Through above-mentioned technical scheme, spring 408 makes second support plate 406 can rock under the drive of air current through the elasticity of self, and second support plate 406 shakes the second support plate 406 and makes when rocking, and accumulational dust can drop on the second support plate 406, avoids the dust to accumulate on first filter screen 407 always, corresponding first filter screen 407's use.

Specifically, the first rotating barrel 503 is cylindrical, a small hole is formed in the outer surface of the first rotating barrel 503, and the second rotating barrel 507 and the first rotating barrel 503 have the same structure.

Through the technical scheme, the first rotating barrel 503 is mainly formed by opening small holes, so that dust is accumulated in a channel between the first rotating barrel 503 and the second rotating barrel 507, the opening of the fixed disk 504 is vertical, the dust enters the channel between the first rotating barrel 503 and the second rotating barrel 507, the dust is accumulated in the channel between the first rotating barrel 503 and the second rotating barrel 507, when the opening of the first rotating barrel 503 faces to the inner wall of the cleaning mechanism 5, the opening of the second rotating barrel 507 is vertical, the dust in the channel between the first rotating barrel 503 and the second rotating barrel 507 passes through the opening of the second rotating barrel 507, the fixed disk 504 is sealed above, air flow cannot enter the channel between the first rotating barrel 503 and the second rotating barrel 507, the dust falls downwards, and no air flow is convenient for workers to collect the dust.

Specifically, the fixed disk 504 is circular, and the size of the circular hole of the fixed disk 504 is the same as the diameter of the first rotating barrel 503.

Through the technical scheme, the fixed disc 504 is mainly used for clamping the first rotating barrel 503, so that dust is prevented from entering the side surface of the first rotating barrel 503 and affecting the operation of the device.

When the dust remover is used, after a worker starts a pulse bag-type dust remover, air with dust particles enters the protective shell 1 through the air inlet pipe 2, the second supporting plate 406 is fixed with the four groups of springs 408 through the connecting rod 405, the first filter screen 407 is fixed on the second supporting plate 406, when the air with the dust particles is shot on the first filter screen 407, the air with the dust particles passes through the first filter screen 407, the first filter screen 407 filters the passing air, the air with the dust particles is firstly treated before the pulse bag-type dust remover filters the dust, and the dust removing effect of the bag-type dust remover is improved.

The worker can start the motor 501, the motor 501 drives the first rotating rod 502 to rotate, the first rotating rod 502 is connected with the second rotating rod 506 through the belt 505, so that the rotating speeds of the first rotating rod 502 and the second rotating rod 506 are the same, the first rotating barrel 503 and the second rotating barrel 507 are the same structure, when the opening of the first rotating barrel 503 is upward, dust enters the channel between the first rotating barrel 503 and the second rotating barrel 507 through the opening of the first rotating barrel 503, the fixed disk 504 blocks the first rotating barrel 503 to prevent the dust from entering the side surface of the first rotating barrel 503 and affecting the operation of the device, when a certain amount of dust is accumulated in the channel between the first rotating barrel 503 and the second rotating barrel 507, the motor 501 rotates, so that the opening of the first rotating barrel 503 faces the inner wall of the cleaning mechanism 5, so that the dust cannot enter the channel between the first rotating barrel 503 and the second rotating barrel 507, when first rotation bucket 503 opening was towards the inner wall of clean mechanism 5, the second rotated bucket 507's opening on vertical direction for first rotation bucket 503 and second rotated the opening that the bucket 507 was rotated to the second in the passageway between the bucket 507 the dust, dropped downwards, the staff of being convenient for collects the dust, the in-process dust that the staff was collected the dust has been prevented to be blown by clean mechanism 5 inside air current and has flown, the problem that the dust flies upward when the staff was collected the dust has been solved.

Detailed description of the utility model

The following is a specific embodiment of a dust removal mechanism of a dust remover for potassium sulfate processing, and the dust removal mechanism can be implemented independently and can also be used as a key mechanism of the dust remover for potassium sulfate processing disclosed in the specific embodiment.

The dust removal mechanism of dust remover for potassium sulfate processing under this embodiment includes: first bracing piece 401, first backup pad 402, first supporting block 403, second bracing piece 404, connecting rod 405, second backup pad 406, first filter screen 407 and spring 408, first backup pad 401 has run through first backup pad 402, first backup pad 402 top fixedly connected with first supporting block 403, first backup pad 403 internal surface fixedly connected with second bracing piece 404, second bracing piece 404 surface swing joint has connecting rod 405, connecting rod 405 one end fixedly connected with second backup pad 406, second backup pad 406 internal surface fixedly connected with first filter screen 407, first filter screen 407 skin weld has spring 408.

Through the technical scheme, the first supporting rod 401 mainly supports the first supporting plate 402, the first supporting plate 402 is prevented from moving, the first supporting block 403 at the top of the first supporting plate 402 is supported, a groove is formed in the top of the first supporting block 403, and is used for fixing the second supporting rod 404, meanwhile, the rotation of the connecting rod 405 cannot be obstructed, the first supporting plate 407 is fixed on the second supporting plate 406, when gas with dust particles hits the first supporting plate 407, the gas with the dust particles passes through the first supporting plate 407, the first supporting plate 407 filters passing air, the first supporting plate 407 is fixed through four groups of springs 408, so that the second supporting plate 406 can shake, and the second supporting plate 406 can shake dust attached to the first supporting plate 407 when shaking.

Detailed description of the utility model

The following is a specific embodiment of a cleaning mechanism of a dust remover for potassium sulfate processing, and the cleaning mechanism can be implemented independently and can also be used as a key mechanism of the dust remover for potassium sulfate processing disclosed in the specific embodiment.

The clean mechanism of dust remover for potassium sulfate processing under this embodiment includes: motor 501, first pivot pole 502, first rotation bucket 503, fixed disk 504, belt 505, second pivot pole 506, second rotation bucket 507, fixed pipe 508 and second filter screen 509, motor 501 one side fixedly connected with first pivot pole 502, first pivot pole 502 one end fixedly connected with first rotation bucket 503, first rotation bucket 503 surface overlap joint has fixed disk 504, fixed disk 504 one side is connected with the internal surface fixed connection of cleaning mechanism 5, first pivot pole 502 transmission is connected with belt 505, belt 505 transmission is connected with second pivot pole 506, second pivot pole 506 one end fixedly connected with second rotation bucket 507, second rotation bucket 507 top fixedly connected with fixed pipe 508, the outer surface of fixed pipe 508 and the inner wall fixed connection of cleaning mechanism 5, the internal surface fixed connection of fixed pipe 508 has second filter screen 509.

Through the above technical solution, the motor 501 drives the first rotating rod 502 to rotate, the first rotating rod 502 is connected with the second rotating rod 506 through the belt 505, so that the rotating speeds of the first rotating rod 502 and the second rotating rod 506 are the same, the first rotating barrel 503 and the second rotating barrel 507 are the same structure, when the opening of the first rotating barrel 503 is upward, dust enters the channel between the first rotating barrel 503 and the second rotating barrel 507 through the opening of the first rotating barrel 503, after a certain amount of dust is accumulated in the channel between the first rotating barrel 503 and the second rotating barrel 507, the motor 501 rotates, so that the opening of the first rotating barrel 503 faces the inner wall of the cleaning mechanism 5, so that dust cannot enter the channel between the first rotating barrel 503 and the second rotating barrel 507, when the opening of the first rotating barrel 503 faces the inner wall of the cleaning mechanism 5, the opening of the second rotating barrel 507 faces in the vertical direction, make first rotation bucket 503 and second rotate the opening that the bucket 507 was rotated to the second to the dust in the passageway between the bucket 507, drop downwards, the staff of being convenient for collects the dust, the in-process dust that has prevented the staff to collect the dust is blown by the inside air current of clean mechanism 5 and flies, fixed pipe 508 is mainly fixed pipe 508, fixed pipe 508 mainly is when first rotation bucket 503 seals the top air current, let gas pass through, prevent the sudden disorder of the inside air current of protective housing 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a dust remover is used in potassium sulphate processing, includes protective housing (1), its characterized in that: an air inlet pipe (2) is fixedly connected to one side of the protective shell (1), an air outlet pipe (3) is fixedly connected to one side, opposite to the air inlet pipe (2), of the protective shell (1), a dust removal mechanism (4) is arranged on the inner surface of the protective shell (1), and a cleaning mechanism (5) is arranged at the bottom of the protective shell (1);

the dust removal mechanism (4) comprises: the support device comprises a first support rod (401), a first support plate (402), a first support block (403), a second support rod (404), a connecting rod (405), a second support plate (406), a first filter screen (407) and a spring (408), wherein the first support rod (401) penetrates through the first support plate (402), the top of the first support plate (402) is fixedly connected with the first support block (403), the inner surface of the first support block (403) is fixedly connected with the second support rod (404), the outer surface of the second support rod (404) is movably connected with the connecting rod (405), one end of the connecting rod (405) is fixedly connected with the second support plate (406), the inner surface of the second support plate (406) is fixedly connected with the first filter screen (407), and the outer surface of the first filter screen (407) is welded with the spring (408);

the cleaning mechanism (5) comprises: motor (501), first dwang (502), first rotation bucket (503), fixed disk (504), belt (505), second dwang (506), second rotation bucket (507), fixed pipe (508) and second filter screen (509), the first dwang (502) of motor (501) one side fixedly connected with, the first rotation bucket (503) of first dwang (502) one end fixedly connected with, first rotation bucket (503) surface overlap joint has fixed disk (504), fixed disk (504) one side is connected with the interior fixed surface of clean mechanism (5), first dwang (502) transmission is connected with belt (505), belt (505) transmission is connected with second dwang (506), second dwang (506) one end fixedly connected with second dwang (507), second rotation bucket (507) top fixedly connected with fixed pipe (508), the outer surface of the fixed pipe (508) is fixedly connected with the inner wall of the cleaning mechanism (5), and the inner surface of the fixed pipe (508) is fixedly connected with a second filter screen (509).

2. The dust remover for potassium sulfate processing according to claim 1, wherein the dust remover comprises: the first supporting rods (401) are provided with a plurality of groups, and the first supporting rods (401) are located on the inner surface of the dust removing mechanism (4).

3. The dust remover for potassium sulfate processing according to claim 1, wherein the dust remover comprises: a groove is formed in the first supporting block (403), and the length of the second supporting rod (404) is the same as that of the groove formed in the first supporting block (403).

4. The dust remover for potassium sulfate processing according to claim 1, wherein the dust remover comprises: the first filter screen (407) is a fiber filter material screen, and the size of the first filter screen (407) is matched with the size of the opening of the second support plate (406).

5. The dust remover for potassium sulfate processing according to claim 1, wherein the dust remover comprises: four groups of springs (408) are arranged, and the outer surfaces of the four groups of springs (408) positioned on the second supporting plate (406) are distributed in a rectangular shape.

6. The dust remover for potassium sulfate processing according to claim 1, wherein the dust remover comprises: the first rotating barrel (503) is cylindrical, a small hole is formed in the outer surface of the first rotating barrel (503), and the second rotating barrel (507) is identical to the first rotating barrel (503) in structure.

7. The dust remover for potassium sulfate processing according to claim 1, wherein the dust remover comprises: the fixed disc (504) is in a circular ring shape, and the size of a circular hole of the fixed disc (504) is the same as the diameter of the first rotating barrel (503).

8. The utility model provides a potassium sulfate processing is with dust removal mechanism of dust remover which characterized in that includes: first bracing piece (401), first backup pad (402), first supporting block (403), second bracing piece (404), connecting rod (405), second backup pad (406), first filter screen (407) and spring (408), first bracing piece (401) runs through first backup pad (402), first backup pad (402) top fixedly connected with first supporting block (403), first backup pad (403) internal surface fixedly connected with second bracing piece (404), second bracing piece (404) surface swing joint has connecting rod (405), connecting rod (405) one end fixedly connected with second backup pad (406), second backup pad (406) internal surface fixedly connected with first filter screen (407), first filter screen (407) skin weld has spring (408).

9. The utility model provides a clean mechanism of dust remover for potassium sulphate processing which characterized in that includes: motor (501), first dwang (502), first rotation bucket (503), fixed disk (504), belt (505), second dwang (506), second rotation bucket (507), fixed pipe (508) and second filter screen (509), the first dwang (502) of motor (501) one side fixedly connected with, the first rotation bucket (503) of first dwang (502) one end fixedly connected with, first rotation bucket (503) surface overlap joint has fixed disk (504), fixed disk (504) one side is connected with the interior fixed surface of clean mechanism (5), first dwang (502) transmission is connected with belt (505), belt (505) transmission is connected with second dwang (506), second dwang (506) one end fixedly connected with second dwang (507), second rotation bucket (507) top fixedly connected with fixed pipe (508), the outer surface of the fixed pipe (508) is fixedly connected with the inner wall of the cleaning mechanism (5), and the inner surface of the fixed pipe (508) is fixedly connected with a second filter screen (509).

Images